Legal claims defining the scope of protection, as filed with the USPTO.
1. An integrated circuit comprising: a conductor for providing a voltage reference; one or more rows of logic cells, including a first type of the logic cells each having a terminal for coupling a virtual voltage reference; and one or more power gate cells, each having a terminal for coupling the virtual voltage reference and a terminal for coupling the conductor for providing a voltage reference, the plurality of power gate cells being placed among the logic cells, wherein the terminals for coupling the virtual voltage reference of the first type of the logic cells are connected to the terminals for coupling the virtual voltage reference of the power gate cells, wherein the terminals for coupling the virtual voltage reference of the first type of the logic cells are connected to the terminals for coupling the virtual voltage reference of the power gate cells by conductors in routing channels.
2. An integrated circuit as in claim 1 , wherein the first type of logic cells are placed in a row contiguously and wherein one of the power gate cells is placed abutting one of the logic cells in the first type of logic cells.
3. An integrated circuit as in claim 2 , wherein conductors at a predetermined position are provided in both the abutting logic cell and the power gate cell, such that the terminal for coupling the virtual voltage reference in the logic cell is connected to the terminals for coupling the virtual voltage reference of the power gate cell by virtue of the placement.
4. An integrated circuit as in claim 2 , wherein the integrated circuit comprises logic cells arranged in a plurality of rows, each row comprising power gate cells located at the ends of the row.
5. An integrated circuit as in claim 1 , wherein the voltage reference is a ground voltage reference.
6. An integrated circuit as in claim 1 , wherein the voltage reference is a power supply voltage reference.
7. An integrated circuit as in claim 1 , wherein each power gate cell comprises a plurality of transistors connected in a parallel configuration.
8. An integrated circuit as in claim 1 , wherein a plurality of power gate cells are connected in a parallel configuration.
9. An integrated circuit as in claim 1 , wherein the rows of logic cells further include a second type of logic cells that are each directly connected to the conductor providing a voltage reference.
10. An integrated circuit as in claim 1 , wherein the power gate cells are placed in the rows in an irregular fashion.
11. An integrated circuit as in claim 1 , wherein the power gates are placed in gaps within the rows resulting from placement of the logic cells.
12. An integrated circuit, comprising: a conductor for providing a voltage reference; one or more rows of logic cells, including a first type of the logic cells each having a terminal for coupling a virtual voltage reference; and one or more power gate cells, each having a terminal for coupling the virtual voltage reference and a terminal for coupling the conductor for providing a voltage reference, the plurality of power gate cells being placed among the logic cells, wherein the terminals for coupling the virtual voltage reference of the first type of the logic cells are connected to the terminals for coupling the virtual voltage reference of the power gate cells, wherein the integrated circuit comprises logic cells arranged in a first row and a second row, wherein power gate cells are provided at the ends of the first row, and logic cells are provided at the ends of the second row.
13. An integrated circuit as in claim 12 , wherein the first type of logic cells are located within the second row.
14. An integrated circuit as in claim 12 , further comprising a third row comprising only logic cells connected to the conductor for providing the voltage reference.
15. An integrated circuit, comprising: a conductor for providing a voltage reference; one or more rows of logic cells, including a first type of the logic cells each having a terminal for coupling a virtual voltage reference; and one or more power gate cells, each having a terminal for coupling the virtual voltage reference and a terminal for coupling the conductor for providing a voltage reference, the plurality of power gate cells being placed among the logic cells, wherein the terminals for coupling the virtual voltage reference of the first type of the logic cells are connected to the terminals for coupling the virtual voltage reference of the power gate cells, wherein the terminals for coupling the virtual voltage reference of the first type of the logic cells are connected to the terminals for coupling the virtual voltage reference of the power gate cells using a channel-less routing technique.
16. An integrated circuit as in claim 15 , wherein the first type of logic cells are placed in a row contiguously and wherein one of the power gate cells is placed abutting one of the logic cells in the first type of logic cells.
17. An integrated circuit as in claim 16 , wherein conductors at a predetermined position are provided in both the abutting logic cell and the power gate cell, such that the terminal for coupling the virtual voltage reference in the logic cell is connected to the terminals for coupling the virtual voltage reference of the power gate cell by virtue of the placement.
18. An integrated circuit as in claim 16 , wherein the integrated circuit comprises logic cells arranged in a plurality of rows, each row comprising power gate cells located at the ends of the row.
19. An integrated circuit as in claim 16 , wherein the integrated circuit comprises logic cells arranged in a first row and a second row, wherein power gate cells are provided at the ends of the first row, and logic cells are provided at the ends of the second row.
20. An integrated circuit as in claim 19 , wherein the first type of logic cells are located within the second row.
21. An integrated circuit as in claim 19 , further comprising a third row comprising only logic cells connected to the conductor for providing the voltage reference.
22. An integrated circuit as in claim 15 , wherein the voltage reference is a ground voltage reference.
23. An integrated circuit as in claim 15 , wherein the voltage reference is a power supply voltage reference.
24. An integrated circuit as in claim 15 , wherein each power gate cell comprises a plurality of transistors connected in a parallel configuration.
25. An integrated circuit as in claim 15 , wherein a plurality of power gate cells are connected in a parallel configuration.
26. An integrated circuit as in claim 15 , wherein the rows of logic cells further include a second type of logic cells that are each directly connected to the conductor providing a voltage reference.
27. An integrated circuit as in claim 15 , wherein the power gate cells are placed in the rows in an irregular fashion.
28. An integrated circuit as in claim 15 , wherein the power gates are placed in gaps within the rows resulting from placement of the logic cells.
Unknown
July 26, 2011
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